import turtle as t  
from turtle import *
import random as r
import time

n = 100.0
 
speed("fastest")  
screensize(bg='pink')  
left(90)
forward(3*n)
color("orange", "yellow")
begin_fill()
left(126)
 
for i in range(5): 
    forward(n/5)
    right(144)    
    forward(n/5)
    left(72)    
end_fill()
right(126)
 
def drawlight():
    if r.randint(0, 30) == 0:
        color('tomato')
        circle(6)
    elif r.randint(0,30) == 1:
        color('orange')
        circle(3)
    else:
        color('dark green')
 
 
color("dark green")
backward(n*4.8)
def tree(d, s):
    if d <= 0: return
    t.pensize(3)
    forward(s)
    tree(d-1, s*.8)
    right(120)
    tree(d-3, s*.5)
    drawlight()
    right(120)
    tree(d-3, s*.5)
    right(120)
    backward(s)
tree(15, n)
backward(n/2)
 
for i in range(200):
    a = 400 - 800 * r.random()
    b = 10 - 30 * r.random()
    up()
    forward(b)
    left(90)
    forward(a)
    down()
    if r.randint(0, 1) == 0:
            color('tomato')
    else:
        color('wheat')
    circle(2)
    up()
    backward(a)
    right(90)
    backward(b)
 
t.color("dark red","red")
t.write("王嬢嬢变富婆！",align ="center",font=("Comic Sans MS",40,"bold"))
 
 
def drawsnow():
    t.ht()  
    t.pensize(3)  
    for i in range(200): 
        t.pencolor("white") 
        t.pu() 
        t.setx(r.randint(-350,350)) 
        t.sety(r.randint(-100,450)) 
        t.pd() 
        dens = 6 
        snowsize = r.randint(1,10) 
        for j in range(dens): 
            
            t.fd(int(snowsize))
            t.backward(int(snowsize))
            t.right(int(360/dens)) 
 
drawsnow()
t.done()  
 
 
 
